High-Quality, Residential Battery Energy Storage System
Product Main Parameters
| Model No. | Nominal Voltage (V) | Nominal Capacity (Ah) @25±2℃ 0.5C | Dimension (mm) | Weight (±2kg) |
|---|---|---|---|---|
| VHR TL3650LFP | 35.2 | 50 | 500*250*133 | 19 |
| VHR TL36100LFP | 35.2 | 100 | 517*314*220 | 34 |
| VHR TL4830LFP | 48.0 | 30 | 442*330*133 | 18 |
| VHR TL4850LFP | 48.0 | 50 | 440*390*133 | 25 |
| VHR TL4880LFP-4U | 48.0 | 80 | 440*440*176 | 42 |
| VHR TL48100LFP-3U | 48.0 | 100 | 440*440*133 | 43 |
| VHR TL48150LFP | 48.0 | 150 | 440*480*222 | 66 |
| VHR TL48200LFP | 48.0 | 200 | 440*550*222 | 81 |
| VHR TL51100LFP-3U | 51.2 | 100 | 440*440*133 | 46 |
| VHR TL51150LFP | 51.2 | 150 | 440*480*222 | 68 |
Common Product Specifications
| Specification | Detail |
|---|---|
| Technology | LiFePO4 (Lithium Iron Phosphate) |
| Cycle Life | 5000 cycles at 80% DOD |
| Energy Density | High energy density |
| Charge Rate | Fast charge capability |
| BMS | Integrated Battery Management System |
| Communication | RS485 remote communication |
Product Manufacturing Process
The manufacturing process of the High-Quality, residential battery energy storage system adheres to stringent industrial standards to ensure the highest quality and reliability. The process begins with the careful selection of high-purity raw materials, followed by the precision assembly of battery cells utilizing state-of-the-art automated machinery. Each cell undergoes rigorous testing for capacity and internal resistance. These cells are then integrated into battery packs where the advanced BMS is installed. Comprehensive end-of-line testing includes electrical performance checks, thermal management assessment, and safety validations. This meticulous process ensures that each battery system delivers optimal performance and longevity.
Product Application Scenarios
The High-Quality, residential battery energy storage system is designed for a range of scenarios. It is ideal for homes utilizing renewable energy sources like solar panels or wind turbines, providing energy storage for use during non-generative periods. It also serves as a reliable backup during power outages, maintaining household operations without interruption. This system is highly beneficial for areas with unstable grid power, ensuring continuous and stable energy supply. Additionally, it supports smart energy management practices by storing energy during off-peak hours and releasing it during peak demand, thereby optimizing cost savings and energy efficiency.
Product After-Sales Service
HRESYS provides comprehensive after-sales service for its High-Quality, residential battery energy storage systems. This includes a warranty period covering manufacturing defects, technical support for installation and integration, as well as regular maintenance services to ensure optimal performance. Customers can reach out to our dedicated support team for troubleshooting and repairs. We also offer periodic software updates for the BMS and EMS, keeping your system up to date with the latest advancements.
Product Transportation
Our High-Quality, residential battery energy storage systems are transported using specialized packaging to ensure safety and integrity during transit. The batteries are securely packed to withstand shocks and vibrations. We comply with all international shipping regulations for transporting lithium-ion batteries, including proper labeling and documentation. Our logistics partners are experienced in handling high-value, sensitive equipment, ensuring timely and safe delivery to your location.
Product Advantages
- High energy density: light weight and space-saving.
- Long cycle life: over 5000 cycles at 80% DOD.
- Fast charge capability.
- Integrated Battery Management System for safety and reliability.
- Remote monitoring and control via RS485.
- Maintenance-free operation.
Product FAQ
1. What is a residential battery energy storage system?
A High-Quality, residential battery energy storage system is designed to store energy for household use, providing reliability and efficiency by integrating advanced LiFePO4 technology and intelligent BMS.
2. How does the BMS enhance battery safety?
The Battery Management System (BMS) in our High-Quality, residential battery energy storage system protects against overcharge, over-discharge, and high current, ensuring each cell operates within safe parameters.
3. What is the lifespan of this battery system?
Our High-Quality, residential battery energy storage system has a lifespan of over 5000 cycles at 80% Depth of Discharge (DOD), making it highly durable and long-lasting.
4. Can this system be used with solar panels?
Yes, the High-Quality, residential battery energy storage system is compatible with solar panels, allowing you to store and use renewable energy efficiently.
5. What is the charge time for the batteries?
The High-Quality, residential battery energy storage system features a fast charge capability, significantly reducing the time needed to reach full charge.
6. Is remote monitoring available?
Yes, our High-Quality, residential battery energy storage system supports remote monitoring and control via RS485 communication, enabling real-time system management.
7. What are the maintenance requirements?
The High-Quality, residential battery energy storage system is designed to be maintenance-free, ensuring hassle-free operation over its lifespan.
8. How do I install the system?
Installation should be performed by certified professionals. HRESYS provides technical support and installation guidelines for our High-Quality, residential battery energy storage system.
9. Are there any safety certifications?
Our High-Quality, residential battery energy storage system complies with international safety standards and certifications, ensuring reliable and safe operation.
10. What happens if there is a power outage?
The High-Quality, residential battery energy storage system provides backup power during outages, maintaining continuous energy supply for household use.
Product Hot Topics
Benefits of High-Quality Residential Battery Energy Storage Systems
High-Quality residential battery energy storage systems offer numerous benefits, including energy independence, cost savings, and environmental sustainability. By storing energy generated from renewable sources, these systems ensure a continuous power supply even during grid failures. They also help homeowners save on energy bills by utilizing stored energy during peak electricity rates. Additionally, reducing reliance on fossil fuels contributes to a cleaner environment. Investing in a High-Quality residential battery energy storage system is a step towards a more resilient and sustainable energy future.
Technology Behind High-Quality Residential Battery Energy Storage Systems
The High-Quality residential battery energy storage systems from HRESYS incorporate advanced LiFePO4 technology, known for its high energy density, safety, and long cycle life. The integrated Battery Management System (BMS) ensures optimal performance by monitoring and balancing each cell, protecting against overcharge and discharge. This technology is coupled with smart energy management systems that optimize energy use based on demand and generation conditions. This combination of technology ensures that homeowners receive reliable and efficient energy storage solutions.
Applications of High-Quality Residential Battery Energy Storage Systems
High-Quality residential battery energy storage systems are versatile and can be used in various applications. They are ideal for homes with renewable energy systems like solar panels, providing storage for excess energy generated. They also serve as reliable backup power sources during outages, ensuring continuous operation of household appliances. In regions with unstable grid power, these systems offer a consistent energy supply. Additionally, smart energy management features allow for cost savings by using stored energy during peak electricity rates, making them a valuable addition to modern homes.
Image Description
There is no picture description for this product